This project took advantage of three convergent trends: the emergence of low-cost 3D design software and fabrication, the increasing adoption of the “lean startup” approach in modeling new ventures, and the economic cost of healthcare in the U.S. is development of alternative, affordable services and products to provide access for both served and un-served patient populations.

The goal of this project is to improve perioperative flow in hospitals by creating an app that will update a specific surgical patient’s healthcare providers of their status and location in the hospital throughout their stay and operation.

This design project focuses on the design and fabrication of the first point-of-use microfluidic device capable of electrochemical detection and quantification of arsenic levels in groundwater sources.

7-10th grade students work with Cornell student volunteers to repurpose unwanted household items--creating exhibits literally out of junk--to allow the public to directly engage with otherwise unfamiliar physics phenomena.

Highlighting making in US education.

We invite institutional leaders, faculty, students and staff to contribute to this dynamic community resource and help exemplify the value and impact of making on campuses and in their surrounding communities.